Litcius/Paper detail

Recombinant collagen hydrogels induced by disulfide bonds

Jie Wang, Jinyuan Hu, Xuan Yuan, Yingnan Li, Lijun Song, Fei Xu

2022Journal of Biomedical Materials Research Part A17 citationsDOIOpen Access PDF

Abstract

With the characteristics of low toxicity and biodegradability, recombinant collagen-like proteins have been chemically and genetically engineered as a scaffold for cell adhesion and proliferation. However, most of the existing hydrogels crosslinked with peptides or polymers are not pure collagen, limiting their utility as biomaterials. A major roadblock in the development of biomaterials is the need for high purity collagen that can self-assemble into hydrogels under mild conditions. In this work, we designed a recombinant protein, S-VCL-S, by introducing cysteine residues into the Streptococcus pyogenes collagen-like protein at both the N-and C-termini of the collagen with a trimerization domain (V) and a collagen domain (CL). The S-VCL-S protein was properly folded in complete triple helices and formed self-supporting hydrogels without polymer modifications. In addition, the introduction of cysteines was found to play a key role in the properties of the hydrogels, including their microstructure, pore size, mechanical properties, and drug release capability. Moreover, two/three-dimensional cell-culture assays showed that the hydrogels are noncytotoxic and can promote long-term cell viability. This study explored a crosslinking collagen hydrogel based on disulfide bonds and provides a design strategy for collagen-based biomaterials.

Topics & Concepts

Self-healing hydrogelsMaterials scienceAdhesionCell adhesionRecombinant DNATissue engineeringScaffoldPolymerBiophysicsPolymer chemistryBiochemistryChemistryBiomedical engineeringComposite materialMedicineGeneBiologySilk-based biomaterials and applicationsHydrogels: synthesis, properties, applicationsPolymer Surface Interaction Studies